不同功率对激光摆动焊接钢/铝异种材料的影响
[1] WANG J Ch. Development and expectation of laser welding technology[J].Laser Technology,2001,25(1): 48-54(in Chinese) .
[2] YAN T, GUO Y H, FAN X Y, et al. Microstructure and mechanical properties of thermal simulation CGHAZ of DP780 high strength steel[J]. Materials Research Express, 2019,6(12): 1-18.
[3] SHE X, JIANG X Q, WANG P Q, et al.Relationship between microstructure and mechanical properties of 5083 aluminum alloy thick plate[J]. Transactions of Nonferrous Metals Society of China,2020, 30(7): 1780-1789.
[5] YAN F, ZHANG K, YANG B, et al. Interface characteristics and reaction mechanism of steel/Al welds produced by magnetic field assisted laser welding-brazing[J]. Optics & Laser Technology, 2021,138(6): 106843.
[6] HUANG P F, LU Zh Y, GAO W N,et al. Low energy welding technology in bonding steel with aluminum[J].Journal of Mechanical Engineering,2009,45(11): 295-299(in Chinese) .
[7] ZHAO X L.Process and method of laser welding technology[J].Metallurgy and Materials,2020,40(3): 121-123(in Chinese) .
[8] QIN G L, GENG P H, CHEN Y, et al.Numerical analysis of stress evolution in MIG arc brazing-fusion welding of al alloy to galvanized steel plate[J].Journal of Mechanical Engineering,2021,57(2): 87-96(in Chinese).
[10] LI C,ZHOU D,MENG X M,et al.Research on laser beam wobble lap welding processes of stainless steel sheets[J].China Mechanical Engineering,2019,30(11): 1359-1366(in Chinese).
[13] VINCENZO D, ALESSANDRO A, ALESSANDRO F. Continuous laser welding with spatial beam oscillation of dissimilar thin sheet materials (Al-Cu and Cu-Al): Process optimization and characterization[J]. Journal of Manufacturing Processes, 2019,44(8): 158-165.
[15] WANG D P, LIU K Y, DENG C Y, et al. Effects of PWHT on the impact toughness and fracture toughness of the weld metal under restraint welding[J].Transactions of the China Welding Institution,2020,41(8): 63-67(in Chinese).
[16] SUN P F, YAO D D, ZHANG P L,et al. Fatigue life extension technologies for weld joints of metals: A review[J].Materials Reports,2021,35(9): 9059-9068(in Chinese).
[17] LIU G Q, GAO X D, PENG C,et al. Tensile resistance, microstructures of intermetallic compounds, and fracture modes of welded steel/aluminum joints produced using laser lap welding[J].Transactions of Nonferrous Metals Society of China,2020,30(10): 2639-2649.
[18] XIE Ch J, YANG Sh L, PAN X H, et al.Microstructure and properties of welded joint of aluminum / steel dissimilar metal[J].Journal of Shanghai University of Engineering Science,2017,31(4): 289-294(in Chinese).
[19] CAI P F, CHEN Q, CHEN Sh H.Characteristics of Fe/Al dissimilar joint by laser penetration welding-brazing[J].Journal of Shenyang University(Natural Science Edition),2020,32(1): 1-6(in Chinese).
[20] ZOU T Ch, FU J, LI L H, et al. Effect of overlap length on tensile properties and failure characteristics of CFRP single-lap adhesive joints[J].Journal of Materials Engineering, 2021, 49(7): 158-165(in Chinese).
巴一, 韩善果, 任香会, 师文庆, 黄进钰, 黄江, 谢玉萍, 何宽芳. 不同功率对激光摆动焊接钢/铝异种材料的影响[J]. 激光技术, 2022, 46(5): 636. BA Yi, HAN Shanguo, REN Xianghui, SHI Wenqing, HUANG Jinyu, HUANG Jiang, XIE Yuping, HE Kuanfang. Influence of different power on laser swing welding of steel/aluminum dissimilar materials[J]. Laser Technology, 2022, 46(5): 636.